In an optical disc drive, an analog calibration signal is generated that combines timing reference information and data information. During reading, and during writing of amorphous areas, the drive modulates the normally constant current supplied to the laser diode. The laser intensity is modulated normally during writing of reflective areas. The relative magnitudes of the intensity modulations, as measured in the calibration signal, are used to adjust the timing of writing data relative to a reference signal. Calibration may be made during reading or writing, without interfering with reading or writing.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method, in an optical disc drive, for adjusting a time of writing data, the method comprising: receiving a calibration signal that is a function of timing reference information and data information; measuring at least two magnitudes of the calibration signal; and adjusting a time of writing, relative to a reference signal, depending on relative magnitudes of the measurements of the calibration signal.
2. A method as in claim 1 , further comprising: the reference signal being proportional to a periodic radial displacement of a wall of a groove on the disc.
3. A method as in claim 1 , further comprising: modulating, during reading, the intensity of a laser used for illuminating the disc during reading.
4. A method as in claim 3 , the step of modulating further comprising: pulsing the intensity of the laser.
5. A method as in claim 3 , the step of modulating further comprising: modulating, while reading a mark having a read time that is longer than a time between modulations.
6. An optical disc drive, comprising: an offset circuit, receiving a calibration signal that is a function of timing reference information and data information, and generating an offset signal, the offset signal being a function of a difference between amplitudes of two measurements of the calibration signal; and a clock circuit, receiving a reference signal and the offset signal, and generating a write-timing signal having a phase that is different than a phase of the reference signal, the phase of the write-timing signal being a function of the offset signal.
7. The optical disc drive of claim 6 , further comprising: the reference signal being proportional to a periodic radial displacement of a wall of a groove on the disc.
8. The optical disc drive of claim 6 , the clock circuit further comprising: a phase-locked loop circuit, having a phase comparator, the phase comparator receiving the reference signal and a feedback signal, the write-timing signal comprising the feedback signal.
9. The optical disc drive of claim 6 , further comprising: a laser intensity control circuit that controls an intensity of a laser used for reading and writing; and a pulse generator circuit, coupled to the laser intensity circuit, the pulse generator circuit modulating the intensity of the laser during reading.
10. The optical disc drive of claim 9 , further comprising: the pulse generator circuit generating intensity pulses during reading.
11. The optical disc drive of claim 10 , further comprising: the calibration circuit comparing amplitudes of pulses in the calibration signal, resulting from the intensity pulses generated by the pulse generator circuit.
12. The optical disc drive of claim 6 , further comprising: the calibration circuit comparing amplitudes of pulses in the calibration signal, resulting from modulation of the light intensity during writing.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
October 6, 2000
March 25, 2003
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